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Perry Shelly
Perry Shelly

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IPython Interactive Computing and Visualization Cookbook

Python is one of the primary open source programs for information science and numerical computing. IPython and the affiliated Jupyter Notebook provide efficient interfaces to Python for information evaluation and interactive visualization, and they constitute an perfect gateway into the stage.

IPython Interactive Computing and Visualization Cookbook, Second Edition includes many ready-to-use, concentrated recipes to get high-performance scientific computing and data analysis, in the most recent IPython/Jupyter attributes to the most innovative tricks, so you can write faster and better code. You may apply these innovative procedures to several real-world examples, demonstrating subjects in applied mathematics, scientific modeling, and machine learning.

The first portion of the novel covers programming methods: code quality and reproducibility, code optimisation, high-speed computing via just-in-time compilation, parallel computing, and graphics card programming.

Characteristics oversaw the Jupyter Notebook for interactive information visualization and science Become a Specialist in high-performance computing and visualization to data analysis and technical modeling a Thorough coverage of computing through many hands on, example-driven recipes using comprehensive, incremental explanations Understand Master all facets of this Jupyter Notebook Code better: compose high quality, readable, and well-tested apps; profile and optimize your code; and run reproducible interactive calculating experiments Picture data and create interactive plots at the Jupyter Notebook Compose blazingly fast Python apps with NumPy, ctypes, Numba, Cython, OpenMP, GPU programming (CUDA), concurrent IPython, Dask, and much more Assess data with Bayesian or frequentist data (Pandas, PyMC( and R), and also learn from real data through machine learning (scikit-learn)

Gain invaluable insights into signs, pictures, and sounds together with SciPy, scikit-image, along with OpenCV Simulate deterministic and stochastic dynamical systems in Python familiarize yourself with mathematics in Python with SymPy and Sage: algebra, analysis, logic, graphs, geometry, and probability theory https://www.javatpoint.com/jvm-java-virtual-machine

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